Financial Modelling in Python

This book will:Show the reader how to get started quickly: Although the Python programming language is a powerful object-oriented language, it's easy to learn, especially for programmers already familiar with C or C++. Show the reader how to write less code: Comparisons of program metrics (class counts, method counts, and so on) suggest that a program written in the Python programming language can be four times smaller than the same program written in C++. Show the reader how to write better code: The Python programming language encourages good coding practices, and automatic garbage collection helps you avoid memory leaks. Show the reader how to develop programs more quickly: The Python programming language is simpler than C++, and as such, your development time could be up to twice as fast when writing in it. Your programs will also require fewer lines of code.Chapter by chapter this book gradually builds up a practical body of code that will serve as an extensible financial engineering system in python. The book uses the Black-Scholes example to begin the building of the python package that will house the code that will be presented as the book progresses.Contents 1 Welcome to Python 1.1 Why Python? 1.1.1 Python is a high-level programming language 1.1.2 Python 'plays well with others' 1.1.3 Common misconceptions about Python 1.2 Roadmap for this book 2 First steps with Python 2.1 The Black-Scholes Formula 2.2 Modules and Packages 2.3 Unit-testing 3 Extending Python from C++ 3.1 Boost.Datetime types 3.2 Boost.MultiArray types 4 Basic Mathematical Tools 4.1 Random number generation 4.2 N(.) 4.3 Interpolation 4.3.1 Interpolation in a single dimension 4.3.2 Interpolation in multiple-dimensions 4.4 Root-finding 4.4.1 Bisection Method 4.4.2 Newton-Raphson Method 4.5 Quadrature 4.5.1 Hermite 4.5.2 Piecewise constant polynomial integration 4.6 Linear Algebra 4.6.1 Matrix Inversion 4.6.2 Singular Value Decomposition 4.6.3 Solving Tridiagonal Systems 4.6.4 Solving linear systems 4.6.5 Pseudo square root 5 Curve and surface construction 5.1 Discount Factor Curves 5.2 Caplet Volatility Curves 5.3 Intensity Curves 5.4 Swaption Volatility Skew Cube 6 Pricing using Numerical Methods 6.1 Monte-Carlo pricing framework 6.2 A lattice pricing framework 7 The Hull-White model 7.1 A component based design 7.1.1 The state 7.1.2 The cache 7.1.3 The requestor 7.1.4 The filler 7.1.5 The rollback 7.1.6 The evolve 7.2 Pricing a Bermudan 7.3 Pricing a TARN 8 Hybrid Python/C++ Pricing Systems Appendices 1 A Survey of Python Programming Tools .2 Hull-White model

SHAYNE FLETCHER has a BSc. from the University of Sydney, Australia. He has had more than 10 years experience working for major investment banks in London, The Netherlands and Japan. In 2009 he founded QuantSoft (http://www.quantsoft.co.jp) providing technical consulting services to meet the financial engineering programming needs of its clients.

CHRISTOPHER GARDNER has a PhD in Applied Mathematics from King's College, London. He began his career working for UKAEA Fusion at Culham Laboratory before moving to the City of London. He has 10 years experience working as a Quantitative analyst. He is currently working on the pricing of Life derivatives for the Asset Management Pricing Desk at Swiss Re.

Welcome to Python	p. 1
Why Python?	p. 1
Python is a general-purpose high-level programming language	p. 1
Python integrates well with data analysis, visualisation and GUI toolkits	p. 2
Python 'plays well with others'	p. 2
Common misconceptions about Python	p. 2
Roadmap for this book	p. 3
The PPF Package	p. 5
PPF topology	p. 5
Unit testing	p. 6
doctest	p. 6
PyUnit	p. 7
Building and installing PPF	p. 7
Prerequisites and dependencies	p. 7
Building the C++ extension modules	p. 8
Installing the PPF package	p. 9
Testing a PPF installation	p. 9
Extending Python from C++	p. 11
Boost.Date_Time types	p. 11
Examples	p. 12
Boost.MultiArray and special functions	p. 17
NumPy arrays	p. 19
Accessing array data in C++	p. 19
Examples	p. 23
Basic Mathematical Tools	p. 27
Random number generation	p. 27
N(.)	p. 28
Interpolation	p. 29
Linear interpolation	p. 31
Loglinear interpolation	p. 32
Linear on zero interpolation	p. 32
Cubic spline interpolation	p. 33
Root finding	p. 35
Bisection method	p. 35
Newton-Raphson method	p. 36
Linear algebra	p. 38
Matrix multiplication	p. 38
Matrix inversion	p. 38
Matrix pseudo-inverse	p. 39
Solving linear systems	p. 39
Solving tridiagonal systems	p. 39
Solving upper diagonal systems	p. 40
Singular value decomposition	p. 42
Generalised linear least squares	p. 44
Quadratic and cubic roots	p. 46
Integration	p. 49
Piecewise constant polynomial fitting	p. 49
Piecewise polynomial integration	p. 51
Semi-analytic conditional expectations	p. 57
Market: Curves and Surfaces	p. 63
Curves	p. 63
Surfaces	p. 64
Environment	p. 65
Data Model	p. 69
Observables	p. 69
LIBOR	p. 70
Swap rate	p. 74
Flows	p. 79
Adjuvants	p. 82
Legs	p. 84
Exercises	p. 85
Trades	p. 87
Trade utilities	p. 88
Timeline: Events and Controller	p. 93
Events	p. 93
Timeline	p. 94
Controller	p. 97
The Hull-White Model	p. 99
A component-based design	p. 99
Requestor	p. 100
State	p. 101
Filler	p. 104
Rollback	p. 108
Evolve	p. 112
Exercise	p. 115
The model and model factories	p. 118
Concluding remarks	p. 121
Pricing using Numerical Methods	p. 123
A lattice pricing framework	p. 123
A Monte-Carlo pricing framework	p. 128
Pricing non-callable trades	p. 129
Pricing callable trades	p. 131
Concluding remarks	p. 142
Pricing Financial Structures in Hull-White	p. 145
Pricing a Bermudan	p. 145
Pricing a TARN	p. 152
Concluding remarks	p. 157
Hybrid Python/C++ Pricing Systems	p. 159
nth_imm_of_year revisited	p. 159
Exercising nth_imm_of_year from C++	p. 161
Python Excel Integration	p. 165
Black-scholes COM server	p. 165
VBS client	p. 167
VBA client	p. 167
Numerical pricing with PPF in Excel	p. 168
Common utilities	p. 168
Market server	p. 169
Trade server	p. 176
Pricer server	p. 187
Appendices	p. 191
Python	p. 193
Python interpreter modes	p. 193
Interactive mode	p. 193
Batch mode	p. 193
Basic Python	p. 194
Simple expressions	p. 194
Built-in data types	p. 195
Control flow statements	p. 197
Functions	p. 200
Classes	p. 201
Modules and packages	p. 203
Conclusion	p. 205
Boost.Python	p. 207
Hello world	p. 207
Classes, constructors and methods	p. 207
Inheritance	p. 209
Python operators	p. 212
Functions	p. 212
Enums	p. 214
Embedding	p. 214
Conclusion	p. 216
Hull-White Model Mathematics	p. 217
Pickup Value Regression	p. 219
Bibliography	p. 221
Index	p. 223
Table of Contents provided by Ingram. All Rights Reserved.

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Financial Modelling in Python

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